DE908353C - Drive device for toys, models or the like. - Google Patents

Description

It is known to use rockets as propulsion means in general. For driving toys and models, however, the previously known fireworks rockets are of little use because of the solid combustion products of black powder occurring in large quantities and the like Compositions of matter which easily lead to narrow openings becoming clogged. These Fireworks rockets are also of little use for the reason that they have a high combustion index have and as a result it easily happens that these compositions of matter explode if the gases become too pressurized before they can escape. From these For reasons, the impact force that can be exerted on the toy or model is exceptional limited. There is also the fact that these compositions of matter for use are unsuitable for indoor use. The flames that occur with the usual fireworks rockets and sparks and their easy flammability also pose a risk to the user, especially if these are used by children and several missiles in stock at the same time held in order to be able to use the toy or model for successive journeys. There is also the fact that the fireworks character of the usual rockets, their packaging, Storage and transportation in large quantities makes it very inconvenient and costly.

The invention relates to a drive device for toys, models or the like

driven by a self-sustaining reaction that causes a gas leak. Here do not occur the disadvantages mentioned, which the previously known drive devices, the based on the use of missiles.

According to the invention, the device consists of a cylindrical housing made of heat-insulating Material in which a compressed gas generating charge is suitably inserted, this ίο Housing is closed at one end and with a limiting element at the other end heat-resistant solid material is provided, which is perforated to create a gas outlet of certain dimensions through which the gas can exit at controlled pressure can. The compressed charge is of such a length with respect to the housing that an air space is created between an end surface of the load and the delimitation element, ao and the charge is not in contact with the cylindrical housing wall at this point, wherein a weakened part is created on the housing, which at a certain pressure breaks up above the desired working pressure. The weakened part of the case exists expediently from a folded-over fold of the insulation material, which is unfolded when a certain overpressure is generated in the device, which is above the desired working pressure lies.

To achieve the desired decomposition without developing flames, the charge consists of guanidine nitrate and the sensitivity-increasing substance consists of a phenol derivative, which contains a number of substituent groups each consisting of a nitrogen atom consists exclusively of at least one terminal hydrogen atom and one of the core carbon atoms of the phenol is bound. In the case where guanidine nitrate is used, the substance which increases the sensitivity can for example a polynitrophenol or a polynitrosophenol be, for example 2,4-dinitroresorcinol, 2,4-dinitrosoresorcinol, 2,4-dinitroparacresol, which is present in amounts of 8 to 20 percent by weight of the guanidine nitrate. It is appropriate not to incorporate more than 1% vanadium pentoxide into the mass. It can also be an aliphatic Acid selected from the group of tartaric acid, citric acid, fumaric acid and maleic acid as partial replacement and even in amounts of 20 to 30% as a complete replacement of the polynitrophenol or polynitrosophenols can be used. The composition of matter can be advantageous asbestos fibers can also be added, but not more than 1%. This will make the Increased force development because this addition supports the decomposition. If so desired the mass may also contain potassium nitrate, but not more than 0.5%, which makes it flammable is increased. Charges based on mixtures of guanidine nitrate and polynitrophenols or polynitrosophenols are in the British patent "(file number 27240/47). In the case where guanidinj nitrate is used, others can do the same J Sensitivity-increasing substances are used, for example chromates, bichromates and Polychromates of alkali metals or ammonium, nitrocellulose, ammonium molybdad or molybdic acid with asbestos or cuprous chloride or cupryoxide, these substances in amounts of about 3 to 12% will be applied. In the case where nitroguanidine is used, chromates, bichromates can be used or polychromates of the alkali metals or of ammonium can be used.

If desired, local heating agents can be provided by the user through a Gas exit hole are introduced, and this can, for example, from a certain length a detonator or matchstick composition that takes the form of a Own thread or are attached to a wire, the outwardly protruding part of this Igniter is plugged. The means causing the local heating can also be the In the form of a length of wire or the like, for example in a furnace fire, gas flame or is heated by a match flame. It should be emphasized that the one put on the market The device does not have any outwardly protruding detonators or similar detonators. The during the Degradation of the sensitized nitroguanidine or guanidine nitrate composition Gases are usually released with a very small flame or no flame at all generated, which can escape through a gas outlet hole or outlet holes. That the wall The delimiting element can be made of a temperature-resistant metal construction, at- ioo for example from a tin plate, aluminum alloys, nickel, stainless steel, non-porous refractory materials such as silica, porcelain or pressed asbestos sheets exist. This one Charges in marketable form do not have an outwardly protruding detonator or similar detonating means contained, they are sufficiently certain that they are of. Can be used by children.

The insulation material of the cylindrical housing wall that does not come into contact with the load can have a weakened part, which breaks open when a previously determined part Pressure that is above the actual working pressure is reached. However, because of the arrangement of the wall delimiting element on the insulation material forming this wall, the latter must be deformed, for example by the fact that the end over the fixed wall delimitation element is folded, it is expedient to make the cylindrical housing wall from such a Produce material that this flanging unfolds itself, if a predetermined one Pressure is reached which is above the desired working pressure within the housing. This previously determined pressure is low enough that an emergency gas outlet is created before

there is any risk of explosive decomposition of the cargo.

In the drawing, various embodiments of the invention are shown, namely shows Fig. Ι on an enlarged scale a longitudinal section through such a device and Fig. 2 a Ground plan of the same as used, for example, to drive a toy vehicle.

In the embodiment shown in the drawing, a cardboard cylinder 1 is over a strong Cardboard disc 2 folded over at 6, and the charge generating the gas consists of a composition of matter which is a mixture of the following components:

Guanidine nitrate 91.0 percent by weight

2,4-dinitroresorcinol. 8.0

Asbestos fiber 0.3

Vanadium pentoxide ... 0.5

Potassium nitrate 0.2

This mixture is heavily pressed into the resulting container with the base plate and cylindrical side wall supported in the press. At the top of the charge there is a small charge 3 of an ignition compound, which consists, for example, of 2,4-dinitroresorcinol. A disc 4 made of a tin plate is placed on the upper end of the container and has a cylindrical hole 5, the diameter of which is about ¹ Ao that of the disc. This disk 4 is pressed a short distance into the end of the wall 4, and the edge of the cylindrical wall 1 is folded over the disk 4, as shown at 7. The outer diameter of this load is about 1.9 cm and the weight of the actual load 8 is about 8 g. The amount of the primer composition 3 is 0.1 g. The total length of the charge 8 is approximately 2.1 cm, and the distance between the ignition charge 3 and the limiting disk 4 is approximately 0.75 cm. The diameter of the opening 5 is about 0.19 cm. The outside diameter of the charge is approximately 2.05 cm. The overfolded end of the device folds up when the internal pressure is applied

+5 exceeds 5 atmospheres. When the ignition has taken place, for example by introducing a hot wire through the hole 5, the amount is the pressure building up in the space between the charge 8 and the disc 4 is about 3 atmospheres.

The impact force produced by the gas escaping through the hole 5 is approximately 28 g, and this is the same is maintained for about 15 seconds.

Another embodiment of the device forming the subject of the invention is shown schematically in Figs. 3 and 4, namely Fig. 3 shows an enlarged scale Longitudinal section through this device and FIG. 4 a plan view of the same, as it is for example can be used to drive a toy vehicle.

As can be seen from the drawing, a cardboard cylinder 9 is folded over a strong cardboard disc 10 at 11 and this cylinder fits telescopically into another cardboard cylinder 12 to which it is bonded by an adhesive and the free end of which is folded at 14 over a tin plate disc 13 . This disc 13 is supported by the end 15 of the inner cardboard cylinder 9. The tin disc 13 is provided with a cylindrical hole 16, the diameter of which is approximately V ₁₀ that of the disc. The inner and outer cylinders are each 3.8 cm long. The inner diameter of the inner cylinder 9 is 1.9 cm and the outer diameter of the outer cylinder 12 is 2.05 cm. The diameter of the opening 16 is 0.19 cm. A previously finished gas-generating molded body 17 fits tightly into the inner cylinder 9 and has the composition of matter given in connection with FIG. 1 and approximately the same weight. A corresponding blank 18 of wire gauze fits into the inner cylinder 9 and is placed over a wick 19, one end of which is folded over the wire gauze. The total length of the pressed body 17 of the gauze 18 and the wick 19 is about 2.1 cm, and the space between the end of the load 17 and the limiting disk 13 is 0.75 cm. The bead 14 unfolds at an internal pressure when this is 5 atmospheres above. The ignition of the folded-over end of the wick 19 go can take place by inserting a corresponding length of a wick through the nozzle opening and igniting the protruding part. The ignited wick 14 ignites the press charge 17, and a working pressure of about 3 atmospheres builds up within the space between the press charge 17 and the disc 13. The shock developed by the nascent gases exiting through hole 16 is approximately 28 grams and is sustained for approximately 15 seconds.

The device representing this embodiment of the invention is very easy to assemble. The cylinders 9 and 12 are made with the ends 11 and 14 folded over, respectively. The cardboard disc 10 is inserted into the cylinder 9 until it is folded over against the Edge 11 is applied. Then the previously pressed molded body 17 is pushed into the cylinder 9 until it rests against the cardboard disc 10. The wick is then placed on the load 17, and on the metal gauze 18 is placed on him, one end of the wick protruding and over the upper one Surface of the gauze 18 is placed. The tin plate 13 is inserted into the cylinder 12, and the outer The surface of the cylinder 9 is provided with an application of adhesive, whereupon the cylinder 9 is inserted into the cylinder 12 until the upper edge 15 abuts against the tin plate 13 and this presses against the folded end 14 of the outer cylinder 12.

Claims (11)

Patent claims: i. Drive device for toys, models, etc., in which a self-sustaining, reaction causing gas leakage takes place, characterized in that the device consists of a cylindrical housing (i, 9, 12) consists of heat-insulating material into which a pressed gas-generating Charge (8,17) is inserted, this housing being closed at one end (2, 10) and at the other end with a delimitation element (4, 13) made of heat-resistant solid material is provided, which is perforated so as to provide a gas outlet opening (5, 16) of certain To create dimensions through which the gas can exit at controlled pressure, the compressed charge (8, 17) of a such length is with respect to the housing (1,9,12) that an air space between a End surface of the charge and the limiting element (4, 13) is created, and the The charge is not in contact with the cylindrical housing wall at this point, ao wherein a weakened part is provided on the housing, which in a certain Pressure above the desired working pressure breaks up. 2. Device according to claim 1, characterized in that that the weakened part of the housing from a folded fold (7, 14) of the Insulation material consists, which is unfolded when a certain overpressure in the Device is generated, which is above the desired working pressure. 3. Apparatus according to claim 1 and 2, characterized characterized in that the cylindrical housing consists of a single tube (1) which is folded over at both ends (6, 7). 4. Apparatus according to claim 1 and 2, characterized characterized in that the cylindrical housing consists of two telescopically nested Pipes (9, 12), which are glued together, each of these pipes at his free end (11, 14) is folded over. 5. Apparatus according to claim 1 to 4, characterized characterized in that the charge consists of guanidine nitrate and that the sensitivity The enhancing substance consists of a phenol derivative which has a number of substituent groups contains, each of which consists of a nitrogen atom exclusively connected to at least one terminal hydrogen atom and to one of the core carbon atoms of the phenol is bonded. 6. Apparatus according to claim 5, characterized in that the phenol derivative in one Amount of 8 to 20 percent by weight of the guanidine nitrate is present. 7. Apparatus according to claim S and 6, characterized in that the phenol derivative consists of 2,4-dinitroresorcinol. 8. Apparatus according to claim 6, characterized characterized in that the phenol derivative consists of 2, 4-dinitrosoresorcinol. 9. Apparatus according to claim 5 to 8, characterized in that 8 to 20% of one Polynitrophenols or Polynitrosophenols used on the amount by weight of the guanidine nitrate will. 10. Apparatus according to claim 5 to 9, characterized characterized in that the charge contains no more than 1% vanadium pentoxide. 11. The device according to claim 1 to 1.0, characterized characterized in that the mass contains an aliphatic acid, for example tartaric acid, Citric acid and maleic acid. 1 sheet of drawings © 5882 3.54